阅读说明：本技术 一种基于防腐防结焦智能传感机械结合的高温纳米陶瓷器 (High-temperature nano-ceramic ware based on combination of anticorrosion anti-coking intelligent sensing machinery ) 是由 邓珍翔 于 2019-09-11 设计创作，主要内容包括：本发明公开了一种基于防腐防结焦智能传感机械结合的高温纳米陶瓷器,其结构包括瓶身、瓶座,瓶身、瓶座胶连接有磁片,瓶身与瓶座通过磁片连接,瓶身由瓶环头、瓶体、瓶环座组成,瓶环头设在瓶体上,瓶体与瓶环座安装连接,瓶体安装有强固结构、气囊结构,本发明通过对瓶环头和瓶座的替换实现对陶瓷外观的改变,左部嵌器与左部嵌器相对的延伸和收缩实现对陶瓶空间大小切换,支撑内盘与支撑方盘的错位上升、下降方便了用于对瓶子底部的擦拭,用户擦拭时无需将瓶子提起,气囊结构设计有效的对瓶子起到了防护防摔的作用,通过陶瓷外观加上机械传动有效的提高了瓶子的使用体验,使用效果好。(The invention discloses a high-temperature nano-ceramic based on corrosion-resistant anti-coking intelligent sensing mechanical combination, which structurally comprises a bottle body and a bottle seat, wherein the bottle body and the bottle seat are connected with magnetic sheets through glue, the bottle body is connected with the bottle seat through the magnetic sheets, the bottle body consists of a bottle ring head, a bottle body and a bottle ring seat, the bottle ring head is arranged on the bottle body, the bottle body is connected with the bottle ring seat in an installing manner, the bottle body is provided with a strong structure and an air bag structure, the ceramic appearance is changed through replacing the bottle ring head and the bottle seat, the left embedding device and the left embedding device are relatively extended and contracted to realize the space size switching of a ceramic bottle, the staggered ascending and descending of a supporting inner disc and a supporting square disc are convenient for wiping the bottom of the bottle, a user does not need to lift the bottle during wiping, the air bag structure is effectively designed to play a role in protecting and preventing the bottle from falling, the use experience of the bottle is effectively improved through the ceramic appearance and mechanical transmission, the use effect is good.)

1. The utility model provides a high temperature nanometer pottery based on anticorrosive anti-coking intelligence sensing machinery combines, its structure includes body (1), bottle seat (2), body (1), bottle seat (2) glue and are connected with the magnetic sheet, body (1) is connected its characterized in that through the magnetic sheet with bottle seat (2):

the bottle body (1) comprises a bottle ring head (10), a bottle body (11) and a bottle ring seat (12), the bottle ring head (10) is arranged on the bottle body (11), the bottle body (11) is connected with the bottle ring seat (12) in an installing mode, and a reinforcing structure (110) and an air bag structure (111) are installed on the bottle body (11).

2. The high-temperature nano-ceramic device based on the combination of the corrosion-resistant and coking-resistant intelligent sensing machine according to claim 1 is characterized in that: the bottle base (2) comprises an upper bottle ring (20), a bottom bottle base (21) and a lifting device (22), the upper bottle ring (20) is connected with the bottom bottle base (21) in an installing mode through the lifting device (22), the upper bottle ring (20) is buckled with the lifting device (22), and the bottom bottle base (21) is embedded with the lifting device (22).

3. The high-temperature nano-ceramic device based on the combination of the corrosion-resistant and coking-resistant intelligent sensing machine as claimed in claim 2, is characterized in that: the lifting device (22) comprises an upper structure (220) and a bottom structure (221), the upper structure (220) is connected with the bottom structure (221) in an installing mode, the upper structure (220) comprises an inner connecting disc (2200), an upper disc (2201) and an upper support pillar (2202), the inner connecting disc (2200) is installed on the upper disc (2201), and the upper disc (2201) is locked with the upper support pillar (2202).

4. The high-temperature nano-ceramic device based on the combination of the corrosion-resistant and coking-resistant intelligent sensing machine according to claim 3, is characterized in that: the bottom structure (221) comprises a bottom pillar (2210), a supporting inner disc (2211) and a supporting square disc (2212), wherein the bottom pillar (2210) is locked with the supporting inner disc (2211), and the supporting inner disc (2211) is connected with the supporting square disc (2212) in a splicing mode.

5. The high-temperature nano-ceramic device based on the combination of the corrosion-resistant and coking-resistant intelligent sensing machine according to claim 4 is characterized in that: support inner disc (2211) is including supporting branch foot (50), dislocation dish (51), central master (52), support branch foot (50) and dislocation dish (51) rail connection, dislocation dish (51) and central master (52) welding.

Technical Field

The invention relates to the field of high-temperature structural ceramics, in particular to a high-temperature nano-ceramic based on combination of an anticorrosion and anti-coking intelligent sensing machine.

Background

With the rapid progress of processing technology, the ceramic manufactured at present has the advantages of corrosion resistance and coking resistance, and the nano ceramic is a novel superstructure ceramic which has the function of improving the brittleness of the ceramic on the basis of corrosion resistance and coking resistance; the ceramic has various functions, can be used as a daily article, also can be used as an artwork for collection, also can be used for arranging flowers at home, and improves the indoor attractiveness.

Disclosure of Invention

The invention mainly aims to overcome the defects of the prior art and provide a high-temperature nano-ceramic based on corrosion-resistant and coking-resistant intelligent sensing mechanical combination, so as to solve the technical problems that people hope about nano-ceramics along with the continuous appearance of high technology, how to further improve the defects of various ceramic appearances, pottery space size switching, convenience in cleaning and wiping, effective realization of ceramic falling-resistant protection and the like, and the technology is continuously researched and developed at the present stage.

The invention is realized by adopting the following technical scheme: the utility model provides a high temperature nanometer pottery ware based on anticorrosive anti-coking intelligence sensing machinery combines, its structure includes body, bottle seat, body bottom is glued and is connected with the magnetic sheet, bottle seat upper end is glued and is connected with the magnetic sheet, the body passes through the magnetic sheet with the bottle seat and is connected, the body comprises bottle ring head, bottle ring seat, bottle ring head is established in the bottle upper end, bottle bottom and bottle ring seat erection joint, strong structure, gasbag structure are installed to the bottle, the bottle with strong structure, gasbag structure erection joint.

Preferably, the bottle base comprises an upper bottle ring, a bottom bottle base and a lifting device, the upper bottle ring is mounted and connected with the inner side of the bottom bottle base through the lifting device, the inner side of the upper bottle ring is buckled with the lifting device, and the inner side of the bottom bottle base is embedded with the lifting device.

Further preferably, elevating gear includes superstructure, substructure, superstructure bottom and substructure erection joint, superstructure is including linking inner disc, upper side dish, upper strut, surface mounting has the linking inner disc on the dish of top, upper side dish and upper strut top locking.

Further preferably, the bottom structure comprises a bottom pillar, a supporting inner disc and a supporting square disc, the bottom of the bottom pillar is locked with the supporting inner disc, and the ring surface of the supporting inner disc is connected with the supporting square disc in an assembled mode.

Further preferably, the support inner disc comprises support branch feet, a dislocation disc and a central main disc, the support branch feet are connected with the dislocation disc through tracks, the dislocation disc is welded with the central main disc, the support branch feet, the dislocation disc and the central main disc are arranged from outside to inside and are positioned on the same axis.

Preferably, the reinforcing structure comprises a left embedding device, an embedding spring and a left embedding device, the left end and the right end of the embedding spring are welded with the left embedding device and the left embedding device, the left embedding device and the left embedding device are embedded and installed and have the same structure, the left embedding device is opposite to the left embedding device, the left embedding device is provided with a locking plate, a locking ring and a supporting rod, the locking plate is matched with the left end of the locking ring, and the locking ring is fastened with the left end of the supporting rod.

Further preferably, the gasbag structure includes bag box, abaculus, striking inductor, bag box and abaculus right side glue are connected, the striking inductor has been installed to the abaculus inner chamber, the bag is installed to bag box inner chamber, the bag right side is equipped with the concave convex layer.

Advantageous effects

According to the invention, the bottle seat at the bottom of the bottle body and the bottle ring head above the bottle body can be replaced, so that the change of the ceramic appearance is realized, the bottle body can realize the space size switching of ceramic bottles under the transmission of a strong structure, the upper bottle ring plays a role in further reinforcing the bottle body, when the strong structure transmits, the left part embedder and the left part embedder move relatively, the diameter of the bottle body is increased when the embedded spring extends, the embedded spring contracts, the left part embedder and the left part embedder move in the middle, after the embedded spring moves, the locking plate is locked with the locking ring, the diameter is changed into the original size, so that the space size switching of ceramic appliances is realized, the ceramic appearance can be changed, and the number of ornaments such as ceramic storage bouquets and the like can also be; if the ceramic is overturned, the impact sensor can receive the induction bomb dislocation disc, the dislocation disc plays a role in buffering, and the supporting branch pins play a role in enhancing friction, so that the ceramic bottle is buffered by the air bag after being overturned, the ceramic bottle is prevented from being broken, and secondary damage caused by continuous rolling is avoided through the friction of the supporting branch pins; the user need not to take up the vase when cleaning the desk, elevating gear drives the lift that the upper portion pillar drove the support square plate, the user of being convenient for cleans, it moves down to support the square plate after that, the bottom pillar drives and supports the inner disc and shift up, the user cleans for the second time, the inner disc is supported to the period and the transmission is supported and is divided the foot and move to central master center on the dislocation dish, realized supporting the diminishing of inner disc diameter, the space of moving that the user hand cleaned the bottle bottom has been increased, clean more easily.

Compared with the prior art, the invention has the beneficial effects that: realize the change to ceramic appearance through the replacement to bottle ring head and bottle seat, the left part inlays the ware and realizes switching the pottery bottle space size with the relative extension of left part embedding ware and shrink, the dislocation of supporting inner disc and support square plate rises, descend and has made things convenient for and be used for cleaning to the bottle bottom, the user need not to mention the bottle when cleaning, the effectual effect of preventing falling of having played the protection to the bottle of gasbag structural design, through ceramic appearance and the effectual use that improves the bottle of mechanical transmission experience, excellent in use effect.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 shows a schematic structural diagram of a high-temperature nano-ceramic based on corrosion-resistant and coking-resistant intelligent sensing mechanical combination.

Fig. 2 shows a schematic view of the structure of the diameter increase of the high-temperature nano-ceramic of the present invention.

Fig. 3 shows a schematic structural view of the lifting device of the present invention.

Fig. 4 shows a schematic structural diagram of the lifting device of the invention, and is also a schematic structural diagram of the transmission of the lifting device.

Fig. 5 shows a schematic view of the structure of the inner support disc of the present invention.

Fig. 6 shows a schematic structural diagram of the reinforced structure of the present invention, and is also a schematic structural diagram of the left embedder and the left embedder extending slightly.

Fig. 7 shows a schematic structural view of the balloon structure of the present invention, which is also a schematic structural view of the balloon structure being expanded.

In the figure: the bottle body 1, the bottle seat 2, the bottle ring head 10, the bottle body 11, the bottle ring seat 12, the reinforcing structure 110, the airbag structure 111, the upper bottle ring 20, the bottom bottle seat 21, the lifting device 22, the upper structure 220, the bottom structure 221, the connecting inner disc 2200, the upper disc 2201, the upper pillar 2202, the bottom pillar 2210, the supporting inner disc 2211, the supporting square disc 2212, the supporting branch foot 50, the dislocation disc 51, the central main disc 52, the left part inserter 1100, the embedded spring 1101, the left part inserter 1102, the locking plate 70, the locking ring 71, the support rod 72, the capsule 1110, the insert 1111, the impact sensor 1112, the capsule 80 and the concavo-convex layer 81.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution of a high temperature nano-ceramic based on the combination of corrosion-proof and anti-coking intelligent sensing machinery: the structure of the ceramic bottle comprises a bottle body 1 and a bottle base 2, wherein the bottle body 1 and the bottle base 2 are connected with magnetic sheets through glue, the bottle body 1 is connected with the bottle base 2 through the magnetic sheets, the magnetic sheets play a role in further fixing a strong ceramic bottle, the bottle body 1 consists of a bottle ring head 10, a bottle body 11 and a bottle ring base 12, the bottle ring head 10 is arranged on the bottle body 11, the bottle body 11 is in installation connection with the bottle ring base 12, the bottle body 11 is provided with a strong structure 110 and an air bag structure 111, the bottle base 2 comprises an upper bottle ring 20, a bottom bottle base 21 and a lifting device 22, the upper bottle ring 20 is in installation connection with the bottom bottle base 21 through the lifting device 22, the upper bottle ring 20 is buckled with the lifting device 22, the bottom bottle base 21 is embedded with the lifting device 22, the lengthening design of the bottom bottle base 21 further improves the placing stability of the ceramic bottle, and the lifting device 22 comprises an upper structure 220 and a bottom structure 221, the upper structure 220 is installed and connected with the bottom structure 221, the upper structure 220 comprises a linking inner disc 2200, an upper disc 2201 and an upper pillar 2202, the linking inner disc 2200 is installed on the upper disc 2201, the upper disc 2201 is locked with the upper pillar 2202, the bottom structure 221 comprises a bottom pillar 2210, a supporting inner disc 2211 and a supporting square disc 2212, the bottom pillar 2210 is locked with the supporting inner disc 2211, the supporting inner disc 2211 is connected with the supporting square disc 2212 in a splicing manner, the supporting square disc 2212 is lifted and lowered in sequence with the supporting inner disc 2211, a user can directly wipe the bottom of a bottle without lifting the bottle, the use is convenient, the supporting inner disc 2211 comprises a supporting branch foot 50, a dislocation disc 51 and a central main disc 52, the supporting branch foot 50 is connected with the dislocation disc 51 in a rail manner, the dislocation disc 51 is welded with the central main disc 52, the central main disc 52 and the supporting branch foot 50 are in a front-back structure, the dislocation disc 51 is of a bevel structure, the supporting part leg 50 moves to the central main disc 52 on the dislocation disc 51 to reduce the diameter of the supporting inner disc 2211 and increase the wiping space at the bottom of the bottle, a user can wipe the bottle in place more cleanly, the reinforcing structure 110 comprises a left embedding device 1100, an embedding spring 1101 and a left embedding device 1102, the reinforcing structure 110 plays a role in increasing the diameter of the bottle and has a stable structure and good transmission stability, the embedding spring 1101 is welded with the left embedding device 1100 and the left embedding device 1102, the left embedding device 1100 and the left embedding device 1102 are embedded and installed and have the same structure, the left embedding device 1100 is provided with a locking plate 70, a locking ring 71 and a supporting rod 72, the locking plate 70 is matched with the locking ring 71, the locking ring 71 is buckled with the supporting rod 72, the air bag structure 111 comprises a bag box, an embedding block 1111 and a collision inductor 1112, and the bag box 1110 is connected with the embedding block 1111 by glue, the impact sensor 1112 is installed on the insert 1111, the bag 80 is installed on the bag box 1110, the bag 80 is provided with a concave-convex layer 81, and the air bag structure 111 plays a role in protecting the bottle, preventing the bottle from being impacted, and also plays a role in fixing the bottle after the bottle is overturned and preventing the bottle from rolling.

The bottle seat 2 at the bottom of the bottle body 1 and the bottle ring head 10 above the bottle body 11 can be replaced to change the appearance of ceramics, the bottle body 1 can realize the switching of the space size of ceramic bottles under the transmission of the reinforced structure 110, the upper bottle ring 20 plays a role in further reinforcing the bottle body 1, when the reinforced structure 110 transmits, the left part embedder 1100 and the left part embedder 1102 move relatively, when the embedded spring 1101 extends, the diameter of the bottle body 11 increases, the embedded spring 1101 contracts, the left part embedder 1100 and the left part embedder 1102 move in the middle, the locking plate 70 is locked with the locking ring 71 after moving, the diameter is changed into the original size, the switching of the size of the ceramic space is realized, the appearance of the ceramics can be changed, and the number of ornaments such as ceramic storage flower bundles and the like can also be increased; if the ceramic is overturned, the impact sensor 1112 can receive the induction bomb dislocation disc 51, the dislocation disc 51 plays a role in buffering, and the supporting branch pin 50 plays a role in enhancing friction, so that the ceramic bottle is buffered by the air bag after being overturned, the ceramic bottle is prevented from being broken, and secondary damage caused by continuous rolling is also avoided through the friction of the supporting branch pin 50; the user need not to take up the vase when cleaning the desk, elevating gear 22 drives the lift that upper strut 2202 drove support square 2212, be convenient for the user to clean, support square 2212 and move down subsequently, bottom strut 2210 drives support inner disc 2211 and shifts up, the user cleans for the second time, support inner disc 2211 during this period and carry out the transmission and support and divide foot 50 to move to center master 52 on dislocation dish 51, realized supporting the diminishing of inner disc 2211 diameter, increased the removal space that the user's hand cleaned the bottle bottom, clean more easily.

Compared with the prior art, the invention has the technical progress that: realize the change to ceramic outward appearance through the replacement to bottle ring head 10 and bottle seat 2, the extension that left part inlays ware 1100 and left part and inlays ware 1102 relatively realizes switching to ceramic bottle space size with the shrink, support inner disc 2211 and support square 2212's dislocation rise, descend and conveniently be used for cleaning to the bottle bottom, the user need not to mention the bottle when cleaning, the effectual effect of preventing falling of having played the protection to the bottle of gasbag structure 111 design, through ceramic outward appearance and the effectual use experience that improves the bottle of mechanical transmission, excellent in use effect.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.